In this article, 1650 herbarium specimens of representatives of the genus Gagea Salisb. were used as research material from the collections of the National Herbarium of Uzbekistan (TASH). It presents a geographical co...In this article, 1650 herbarium specimens of representatives of the genus Gagea Salisb. were used as research material from the collections of the National Herbarium of Uzbekistan (TASH). It presents a geographical coordinate system, habitats, phenology, and economic values. The distribution of species in Uzbekistan was indicated by the phytogeographic regions of the country. The herbarium material of Gagea Salisb. has been studied in TASH, SAMSU and MSU. The TASH Herbarium presents samples from 1914 to 2019. The review was written using information published between 1988 and 2019 from a number of reliable sources, including Science Direct, Springer, PubMed, EMBASE and Wikipedia.展开更多
Surface wind fields in glacial environments are critical components of local circulation systems and are essential for glacier boundary layer research.Investigating the spatiotemporal characteristics of glacial surfac...Surface wind fields in glacial environments are critical components of local circulation systems and are essential for glacier boundary layer research.Investigating the spatiotemporal characteristics of glacial surface winds and their impacts on local meteorological processes is essential for identifying the mechanisms and spatial heterogeneity of mass balance variations in Tibetan Plateau mountain glaciers under climate change conditions.This study analyzed Qiyi Glacier in the Qilian Mountains,utilizing multiyear meteorological data from automatic weather stations(AWS)and precipitation gauges at various elevations.The key findings revealed that daytime convergence between upper-mid glacier katabatic winds and valley anabatic winds enhanced orographic uplift,increasing precipitation in these zones.Nocturnal wind reversals induce divergent subsidence over upper-mid glacial areas,promoting cloud-free conditions that enhance longwave radiative cooling and glacial cold storage and suppressing ablation.We proposed a conceptual model of glacier wind-precipitation feedback that demonstrates how local circulations(e.g.,katabatic winds)modulate the formation of precipitation maxima in glacial settings.Furthermore,warm-year observations have documented intensified glacier winds.These results suggest that glacial systems may develop self-sustaining protective feedback through local circulation adjustments under climate change.展开更多
文摘In this article, 1650 herbarium specimens of representatives of the genus Gagea Salisb. were used as research material from the collections of the National Herbarium of Uzbekistan (TASH). It presents a geographical coordinate system, habitats, phenology, and economic values. The distribution of species in Uzbekistan was indicated by the phytogeographic regions of the country. The herbarium material of Gagea Salisb. has been studied in TASH, SAMSU and MSU. The TASH Herbarium presents samples from 1914 to 2019. The review was written using information published between 1988 and 2019 from a number of reliable sources, including Science Direct, Springer, PubMed, EMBASE and Wikipedia.
基金supported by the National Natural Science Foundation of China(Grant Nos.42130516,41871053,42171139,41371095)。
文摘Surface wind fields in glacial environments are critical components of local circulation systems and are essential for glacier boundary layer research.Investigating the spatiotemporal characteristics of glacial surface winds and their impacts on local meteorological processes is essential for identifying the mechanisms and spatial heterogeneity of mass balance variations in Tibetan Plateau mountain glaciers under climate change conditions.This study analyzed Qiyi Glacier in the Qilian Mountains,utilizing multiyear meteorological data from automatic weather stations(AWS)and precipitation gauges at various elevations.The key findings revealed that daytime convergence between upper-mid glacier katabatic winds and valley anabatic winds enhanced orographic uplift,increasing precipitation in these zones.Nocturnal wind reversals induce divergent subsidence over upper-mid glacial areas,promoting cloud-free conditions that enhance longwave radiative cooling and glacial cold storage and suppressing ablation.We proposed a conceptual model of glacier wind-precipitation feedback that demonstrates how local circulations(e.g.,katabatic winds)modulate the formation of precipitation maxima in glacial settings.Furthermore,warm-year observations have documented intensified glacier winds.These results suggest that glacial systems may develop self-sustaining protective feedback through local circulation adjustments under climate change.
